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- Title
The change of heavy metals fractions during hydrochar decomposition in soils amended with different municipal sewage sludge hydrochars.
- Authors
Yue, Yan; Yao, Yong; Lin, Qimei; Li, Guitong; Zhao, Xiaorong
- Abstract
Purpose: This study was to investigate the changes of heavy metals in the soils amended with different municipal sewage sludge hydrochars. Materials and methods: Sewage sludge hydrochars prepared at either 190 or 260 °C, for 1, 6, 12, 18, or 24 h, respectively, were added to soil samples and then incubated for 60 days. Water-extractable organic carbon (WEOC) and CO evolution were determined during the incubation. The total quantities of heavy metals and their different fractions were analyzed by inductively coupled plasma spectrometry (ICP). Results and discussion: Hydrochar-amended soils had much higher water-extractable carbon and more CO evolution than control soil, indicating that the added hydrochars contained a significant amount of WEOC and could be decomposed during the incubation. Hydrochar addition immediately and significantly increased the total heavy metals of the soil. Moreover, both oxidizable and residual fractions of all heavy metals were significantly higher in all the hydrochar-added soils than those in control soil. Both oxidable and residual fractions of heavy metals decreased in the hydrochar-amended soils during 60-day incubation. In contrary, both acid soluble and reducible fractions of heavy metals increased in the hydrochar-amended soils during incubation. It is thus obvious that the heavy metals in both oxidable and residual fractions may be released during hydrochar decomposition and then be adsorbed by soil matrix such as carbonates, iron oxides, and clays. Conclusions: Municipal sewage sludge can be readily carbonized into hydrochar. However, it is watchful of applying the hydrochar into soil since hydrochar addition increases in both total and bioavailable heavy metals in soil. More work is particularly required to investigate the long-term impacts on soil and environment.
- Subjects
HEAVY metals; SEWAGE sludge; SOILS
- Publication
Journal of Soils & Sediments: Protection, Risk Assessment, & Remediation, 2017, Vol 17, Issue 3, p763
- ISSN
1439-0108
- Publication type
Article
- DOI
10.1007/s11368-015-1312-2